Post on 26-Nov-2014
Channel Processes and Landforms
River ProfilesRiver ProfilesThese are the key features and terminology of a river Long Profile - (from source to mouth), and Cross Profile - (from valley side to valley side.) The cross profile changes as the river moves downstream.
The changes downstream in a The changes downstream in a riverriver
UPPER COURSEAs a river flows downstream the shape of its channel changes. Many of these changes are caused by changes in the river energy. At the source the river is high above its base level ( sea level). It has lots of energy and this results mostly in VERTICAL erosion to try to reach its base level. This helps to create V-shaped river valleys.
Stage 3 - Lower Course
Stage 2 - Middle Course
The changes downstream in a The changes downstream in a riverriver
MIDDLE COURSEAs the river moves downstream it uses a lot of energy to transport the material or load it has eroded. Surplus energy is now used to erode SIDEWAYS (LATERAL EROSION) because the river is much closer to its base level, and so the river valley becomes wider and flatter.
Stage 3 - Lower Course
Stage 1- Upper Course
The changes downstream in a The changes downstream in a riverriver
LOWER COURSEClose to its mouth the river is close to or at its base level. There is hardly any gradient at all. All erosion is LATERAL (Sideways) and the river meanders across a wide, flat flood plain.
Stage 2 - Middle Course
Stage 1- Upper Course
Typical Features:• Deep, narrow V-shaped valley• Evidence of soil creep and rain
wash of material down slope into the river
• Steep gradient = fast flowing stream
• Interlocking spurs• Waterfalls and rapids• Large bed load of angular
boulders• No flat valley floor• Narrow, shallow channel• Clear water because there is
little material carried in suspension
Typical features:•A small flood plain•River meanders•River bluffs along valley side•Point bars and river cliffs•Ox-bow lakes•Sideways (Lateral) erosion and •downward erosion•River terraces•Larger discharge•Gentle gradient
Lower Lower CourseCourse
Typical features:
•Flood plain - very wide & flat •Alluvium = fertile farmland•Very large meanders•Little or no power to erode vertically•Some lateral erosion•Levees •Deferred junctions•Ox-bow lakes•River terraces•Delta•Estuaries•Large suspended load
Meanders on the Mississippi
MeandersMeanders
Meanders:Meanders: Meanders are bends in the river’s course. The water travels more quickly on the outside of the meander so the ability to erode is greater. The result is that corrasion makes deeper water and undercutting on the outside bank called a river cliff.
The corkscrew movement underwater increases the undercutting, and moves eroded material onto the point bar
On the inside of the bend the water flows much more slowly, often with slack water. This encourages deposition. Sand and pebbles are deposited creating a gentle slip-off slope or point bar.
Key Terms:MeanderMeander = a loop in a riverPoint BarPoint Bar = a deposit of sand and gravel on the inside bend of a meander.Slip-off slopeSlip-off slope = the gentle slope on the inside bend of a meander.River cliffRiver cliff = a steep slope or face on the outside bend of a meander.
*River cliff
Slip-off slope
Point Bar
Flood plain
Alluvium - sand and gravel
*Fastest current
Slack water
Undercutting
Point Bar
Flood Plain
Bank collapse
At the meanders there are usually pools of deeper water and between the meanders are patches of shallow water called riffles.
Migrating Migrating MeandersMeanders •Meanders get wider due to
erosion on the outside bend - LATERAL EROSION
•the meanders have moved or migrated downstream•a line of river cliffs has
formed along the edge of the valley floor.
•Deposition on the slip-off slopes has built up alluvium
on the valley floor•as the meanders get wider
so does the valley floor or flood plain.
Downstream
Click the picture to get an animation
The Meander scars are quite clear on this photo.
Ox-bow lake
OX-BOW LAKES
Waterfalls & Rapids•Waterfalls and rapids occur where the long profile
of the river is steep.•It is usually caused by an outcrop of more resistant rock called a cap rock overlying a softer rock.Erosion is caused by hydraulic power and abrasion in the plunge pool at the base of the fall.•Undercutting of the cap rock results in periodical collapse into the plunge pool.•The result is the waterfall moves upstream leaving a gorge of recession behind.•Key Case Study: High Force on the River Tees. 21m high
Waterfall recessionResistant Cap rock
Layers of softer rock
Plunge Pool
Abrasion undermines
the hard layer
Eventually the overhang weakens and cracks
The cap rock falls into the plunge pool
The waterfall has taken a step back
The undercutting process continues
Click diagramto
animate
Waterfall recession animation
Resistant cap rock
Layers of softer rock
Plunge pool
Undercutting happens here
Erosion moves the
waterfall up stream
Gorge of recession is created downstream
High Force - High Force - River Tees 21m River Tees 21m
high.high.
High Force - High Force - River Tees 21m River Tees 21m
high.high.
River Levees
River Deltas